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基于压力稳定与限深减振的双调控免耕播种单体控制系统设计与试验

贺栋王超曹鑫鹏王庆杰李洪文卢彩云何进贾麟吴正阳

农业机械学报2026，Vol.57Issue(4)：19-27,49,10.

农业机械学报2026，Vol.57Issue(4)：19-27,49,10.DOI:10.6041/j.issn.1000-1298.2026.04.003

基于压力稳定与限深减振的双调控免耕播种单体控制系统设计与试验

Design and Experiment of Dual-regulation Control System for No-tillage Seeding Units Based on Pressure Stabilization and Depth-limiting Vibration Reduction

贺栋 ¹王超 ¹曹鑫鹏 ²王庆杰 ¹李洪文 ¹卢彩云 ¹何进 ¹贾麟 ¹吴正阳¹

作者信息

1. 中国农业大学工学院,北京 100083||农业农村部保护性耕作农业装备重点实验室,北京 100083
2. 山东农业大学机械与电子工程学院,泰安 271018
折叠

摘要

Abstract

Aiming to address the issue that high-speed operation induces excessive vibrations of no-till seeding units,thereby deteriorating seeding quality,a dual-regulation vibration-reduction no-till seeding unit was developed based on downforce stabilization control and furrow-depth attenuation control.By integrating multiple sensors,including an inclinometer,a pin-shaft force sensor,and an angular displacement sensor,the system enabled real-time acquisition of the profiling angle,downforce cylinder thrust,and depth-limiting wheel arm rotation.Consequently,closed-loop regulation of the downforce hydraulic cylinder pressure and the damping cylinder displacement was achieved.Stable downforce output and impact-limiting damping control effectively suppressed unit vibration,enabling active regulation of downforce and seeding depth.A coupled co-simulation model of the dual-regulation hydraulic control system was constructed by using AMESim and Simulink.Simulation results indicated that PID,fuzzy-PID,and sliding-mode control(SMC)exhibited comparable performance in regulating the downforce cylinder force.However,for damping-cylinder displacement control,SMC demonstrated clear advantages over conventional PID and fuzzy-PID control,reducing the maximum overshoot by 5.56 percentage points and 2.01 percentage points,and shortening the settling time by 1.27 s and 1.45 s,respectively.A dual-regulation vibration-reduction test bench for the no-till seeding unit was built,and a downforce measurement model integrating profiling angle and hydraulic pressure was established.Experimental validation of the proposed control strategy showed that under different hydraulic pressures and four-bar linkage inclination settings,the coefficient of determination reached 0.94463 with an adjusted value of 0.93819,demonstrating high control accuracy of the seeding downforce.The findings can provide a theoretical foundation for vibration-reduction control of no-till seeding units.

关键词

免耕播种单体/压力稳定/限深减振/双调控减振控制系统/电液控制

Key words

no-tillage seeding unit/pressure stabilization/depth-limited vibration damping/dual-regulation vibration damping control system/electric and hydraulic control

分类

农业科技

引用本文复制引用

贺栋,王超,曹鑫鹏,王庆杰,李洪文,卢彩云,何进,贾麟,吴正阳..基于压力稳定与限深减振的双调控免耕播种单体控制系统设计与试验[J].农业机械学报,2026,57(4):19-27,49,10.

基金项目

国家重点研发计划项目(2024YFD1500405) （2024YFD1500405）

农业机械学报

ISSN：1000-1298

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